RU162915U1 - INTEGRATED SOURCE OF OPTICAL RADIATION - Google Patents

Abstract

1. An integrated source of optical radiation containing a single-phase bridge with four diodes, the AC terminal of the bridge is connected to the input terminal of the source through a series circuit of a resistor and a fuse, and the second AC terminal of the bridge is connected to the second input terminal of the source through a capacitive circuit shunted by the second resistor , the DC bus terminals of the bridge are shunted by a second series circuit from the third resistor and the LED circuit, the ratio of the forward voltage of the LED circuit to the maximum value of the voltage at the input terminals of the source is 0.3 ... 0.8.2. The integrated optical radiation source according to claim 1, characterized in that the AC terminal of the bridge is connected to the second input terminal of the source through a varistor. 3. An integrated optical radiation source according to claim 1 or 2, characterized in that the bridge AC terminal is connected to the second input terminal of the source through a capacitor. 4. An integrated source of optical radiation according to claim 1 or 2, characterized in that the direct current terminals of the bridge are shunted by a second capacitor and a fourth resistor. 5. An integrated optical radiation source according to claim 1 or 2, characterized in that a choke shunted by a fifth resistor is included in the second serial circuit. The integrated optical radiation source according to claim 1 or 2, characterized in that the capacitive circuit can consist of either one or several capacitors connected in series or in parallel, or in series and in parallel. An integrated optical radiation source according to claim 1 or 2, characterized in that the LED circuit can

Description

The utility model relates to lighting engineering and can be used in the design of new energy-efficient integrated sources of optical radiation with increased efficiency and service life, universal, designed for both indoor and outdoor installations, having low levels of the harmonic coefficient of the current consumed from the mains and electromagnetic interference. The utility model is aimed at expanding the scope of the device.

An integrated optical radiation source is known, comprising a single-phase bridge with four diodes, an alternating current output of the bridge is connected to the input output of the source, and a second alternating current output of the bridge is connected to the second input output of the source through a protective element, an analog DC controller having REXT, GND and the OUT terminal, the OUT terminal of which is connected to the positive output terminal of the bridge through a series circuit of several LED arrays, the GND terminal of the controller is connected to the negative output terminal water bridge, and the output terminal REXT connected to GND via a resistor, the output terminals of the bridge are shunted capacitor, (SM2082B Single Channel LED Constant Current Driver (datasheet) // www.dianyua-nic.com).

A disadvantage of the known integrated source of optical radiation is a narrow scope, which is due to the high price, low reliability, lack of reliable protection against electrical disturbance in the device, high levels of harmonic coefficient of current consumed from the mains, pulsation coefficient of light flux and electromagnetic interference, low coefficient of useful action and power factor.

An integrated optical radiation source is known, comprising a single-phase bridge with four diodes, an alternating current output of the bridge is connected to the input output of the source, and a second alternating current output of the bridge is connected to the second input output of the source through a protective element, an analog DC controller having REXT, GND and four outputs OUT1-OUT4, the fourth output of OUT4 of which is connected to the positive output terminal of the bridge through a serial circuit of four LED arrays, the first terminal OUT1 of the controller is connected to the common point of connection of the first and second LED matrixes, the second terminal OUT2 of the controller is connected to a common point of connection of the second and third LED matrixes, and the third terminal of OUT3 of the controller is connected to a common point of connection of the third and fourth LED matrixes, the terminal GND of the controller is connected to the negative output terminal of the bridge, and the REXT pin is connected to the GND pin through a resistor (Altoran Chip and Systems. Driver 1C Introduce. ACS1004S and ACS1404S // www.altorancns.com).

A disadvantage of the known integrated source of optical radiation is a narrow scope, which is due to the high price, low reliability, lack of reliable protection against electrical disturbance in the device, high levels of harmonic coefficient of current consumed from the mains, pulsation coefficient of light flux and electromagnetic interference, low coefficient of useful action and power factor.

An integrated optical radiation source is known, comprising a single-phase bridge with four diodes, an alternating current output of the bridge is connected to the input output of the source, and a second alternating current output of the bridge is connected to the second input output of the source through a protective element, an analog DC controller having REXT, GND and four outputs OUT1-OUT4, the fourth output of OUT4 of which is connected to the positive output terminal of the bridge through a serial circuit of four LED arrays, the first terminal OUT1 of the controller is connected to the common point of connection of the first and second LED matrixes, the second terminal OUT2 of the controller is connected to a common point of connection of the second and third LED matrixes, and the third terminal of OUT3 of the controller is connected to a common point of connection of the third and fourth LED matrixes, the terminal GND of the controller is connected to the negative output terminal of the bridge, and the REXT pin is connected to the GND pin through a resistor (SM2087 High Power Factor Linear Constant Current LED Driver (datasheet) // www.dianyua-nic.com).

A disadvantage of the known integrated source of optical radiation is a narrow scope, which is due to the high price, low reliability, lack of reliable protection against electrical disturbance in the device, high levels of harmonic coefficient of current consumed from the mains, pulsation coefficient of light flux and electromagnetic interference, low coefficient of useful action and power factor.

An integrated optical radiation source is known, comprising a single-phase bridge with four diodes, an alternating current output of the bridge is connected to the input output of the source, and a second alternating current output of the bridge is connected to the second input output of the source through a protective element, an analog DC controller having REXT, GND and the OUT terminal, the OUT terminal of which is connected to the positive output terminal of the bridge through a series circuit of several LED arrays, the GND terminal of the controller is connected to the negative output terminal water bridge, as REXT output terminal is connected to GND via a resistor, the output terminals of the bridge are shunted capacitor between terminals OUT and GND of the second switched capacitor (SM2082B Single Channel LED Constant Current Driver (datasheet) // www.dianyua-nic.com).

A disadvantage of the known integrated source of optical radiation is a narrow scope, which is due to the high price, low reliability, lack of reliable protection against electrical disturbance in the device, high levels of harmonic coefficient of current consumed from the mains, pulsation coefficient of light flux and electromagnetic interference, low coefficient of useful action and power factor.

An integrated optical radiation source is known, comprising a single-phase bridge with four diodes, an alternating current output of the bridge is connected to the input output of the source, and a second alternating current output of the bridge is connected to the second input output of the source through a capacitor shunted by a resistor, the direct current terminals of the bridge are shunted by the second series circuit several LEDs (Edison LED lamp review. June 24, 2014 // www.superfonarik.ru).

Known integrated source of optical radiation is the closest in technical essence to a utility model and is selected as a prototype.

The disadvantage of the prototype is also a narrow scope, due to the low reliability of the device, the lack of protection against violations of the electric mode, high levels of the harmonic coefficient of the current consumed from the network, the ripple coefficient of the light flux and electromagnetic interference, low efficiency and power factor.

The utility model is aimed at solving the problem of expanding the field of application of an integrated source of optical radiation, which is the purpose of the utility model.

This goal is achieved by the fact that in an integrated source of optical radiation:

1. Containing a single-phase bridge with four diodes, the alternating current output of the bridge is connected to the input output of the source through a series circuit of a resistor and a fuse, and the second alternating current output of the bridge is connected to the second input of the source through a capacitive circuit shunted by the second resistor, bridge direct current outputs shunted by a second series circuit from the third resistor and the LED circuit, the ratio of the forward voltage of the LED circuit to the maximum voltage value at the input terminals odes of the source is 0.3 ... 0.8;

2. According to claim 1, the AC terminal of the bridge is connected to the second input terminal of the source through a varistor;

3. By p.p. 1 and 2, the AC terminal of the bridge is connected to the second input terminal of the source through a capacitor;

4. By p.p. 1 and 2, the DC terminals of the bridge are shunted by a second capacitor and a fourth resistor;

5. By p.p. 1 and 2, a choke shunted by a fifth resistor is included in the second serial circuit;

6. By p.p. 1 and 2, a capacitive circuit can consist of either one or several capacitors connected in series or in parallel, or in series and in parallel;

7. By item 1 and 2, the LED circuit can consist of either one or several LEDs, or LED arrays, or LED arrays connected in series or in parallel, or in series and in parallel.

A significant difference characterizing the utility model is the expansion of the scope of the integrated optical radiation source by changing the principle of operation, improving its technical characteristics and possible design options. The new source has high reliability, the presence in the device of the necessary protection against violations of the electric mode, relatively low levels of the harmonic coefficient of the current consumed from the network, the ripple coefficient of the light flux and electromagnetic interference, a sufficiently high efficiency and power factor.

The expansion of the scope is due to new principles of the device and a new source design, a new electrical circuit, the implementation of the input circuit, new elements and connections, that is, the hallmarks of the utility model. Thus, the distinguishing features of the claimed integrated source of optical radiation are significant.

The figure shows an electrical diagram of an integrated optical radiation source.

The integrated optical radiation source contains a single-phase bridge on four diodes 1-4, the AC terminal of the bridge is connected to the input terminal of the source through a serial circuit from the resistor 5 and fuse 6, and the second AC terminal of the bridge is connected to the second input terminal of the source through the capacitive circuit 7, shunted by the second resistor 8, the DC bus terminals of the bridge are shunted by a second serial circuit from the third resistor 9 and the LED circuit 10, the ratio of the forward voltage of the LED to mA the maximum voltage value at the input terminals of the source is 0.3 ... 0.8. The AC terminal of the bridge can be connected to the second input terminal of the source through the varistor 11. The AC terminal of the bridge can also be connected to the second input terminal of the source through the capacitor 12. The DC terminals of the bridge can be additionally shunted by the second capacitor 13 and the fourth resistor 14. In the second series circuit can be connected to the inductor 15, shunted by the fifth resistor 16. The capacitive circuit can consist of either one or several capacitors connected in series or in parallel, or in series and in parallel. The LED circuit can consist of either one or several LEDs, or LED arrays, or LED arrays connected in series or in parallel, or in series and in parallel.

The integrated source of optical radiation in the steady state operates as follows.

An LED circuit (LEDs, LED arrays, LED arrays or groups of the listed elements connected electrically in series or in parallel, or in series and in parallel) 10 generates (generate) optical radiation in the visible light or infrared (ultraviolet) parts of the spectrum. Resistor 9 (as well as inductor 16) limits and stabilizes the current through the LED circuit 10, which is necessary for its normal operation. The resistor 15 acts as a filter element (together with the inductor 16) and limits the magnitude of the overvoltage on the inductor 16 that occurs when the LED circuit 10 is turned off. The resistor 9 can be made as a piece of conductor on a printed circuit board or can be a discrete element or a resistor microassembly. In this case, the level of the nominal (stabilized) current through the LED circuit 10 is set using a capacitive circuit (capacitor or several capacitors) 7. The device is connected to the input terminals through a protective element (fuse) 6, resistor 5 and capacitive circuit 7. Resistor 5 is an additional limiting the current element and together with the capacitor 12 also acts as an element of the filter of radio interference and radiation. Thus, the resistor 5 additionally implements the functions of an element of the overall noise suppression system, limiting the higher harmonics of the current consumed by the device and reducing switching losses on the active elements of the device (including bridge diodes 1-4). The fuse 6 and resistor 5 can be made in the form of pieces of conductors on a printed circuit board or represent discrete elements. Resistor 5, in addition, can be implemented as a microassembly. The resistor 5 can limit the inrush current inrush, as well as the amplitude of the surge currents that occur when the charge of the second capacitor 13.

Element 6 protects the optical radiation source from short circuits and any emergency violations of the electric mode, and varistor 11 protects the device from surge surges at the input terminals.

A single-phase bridge (diodes 1-4) rectifies (converts) an alternating supply (mains) voltage applied to the input terminals of the device into alternating voltage with ripple at a frequency of 100 Hz (with a standard mains voltage of 50 Hz). A single-phase bridge (diodes 1-4) can be implemented on discrete elements or in the form of a microcircuit (microassembly). The principle of operation of the device remains unchanged.

The second capacitor 13 is charged through the bridge diodes 1-4, the capacitive circuit 7 and the resistor 5 to a voltage almost equal to the forward voltage on the LED circuit 10 (with a small value of the resistance of the resistor 9 and the internal active resistance of the inductor 16). The ratio of the direct voltage of the LED circuit 10 to the maximum voltage at the input terminals of the source (mains voltage) should be 0.3 ... 0.8.

Resistors 8, 14 have a relatively high resistance and are designed to discharge capacitors 12, 13 when the device is turned off, which ensures safe operation. At the same time, resistors 8, 14 are additional elements of the radio noise and radiation filters. Resistors 8, 14 are based on discrete elements or microassemblies.

The capacitive circuit 7 can consist of either one or several capacitors connected in series or in parallel, or in series and in parallel, and the LED circuit 10, respectively, can consist of either one or several LEDs, or LED arrays, or LED rulers connected in series or in parallel, or in series and in parallel (embodiments with increased power).

Compared with the prototype, the scope of application of the integrated optical radiation source is significantly expanded by changing the principle of operation, improving its technical characteristics and possible design options. The inventive optical radiation source has a relatively high efficiency (more than 95%) and power (more than 60%) and a low level of radio noise and radiation (not exceeding the established standards), has a relatively low harmonic coefficient of the current consumed from the network (not more than 27%) , provides small inrush currents (when the integrated optical source is turned on, they are practically absent), as well as the amplitude of the input operating current.

The new integrated optical radiation source has a relatively simple device and high reliability.

The ratio of the forward voltage of the LED to the maximum voltage at the input terminals of the source is 0.3 ... 0.8. This provides an optimal combination of basic technical specifications.

The price of the new device is relatively low (due to the provision of an optimal set of technical characteristics).

The nomenclature of type designs of integrated optical radiation sources according to the new scheme is expanding significantly. Each type design can be an optimal design and a fairly technologically advanced product, which further reduces the final price of the products.

Lower prices and a wide range of products also expand the scope of the device.

The inventive source meets current requirements for the technical characteristics of such devices. Indeed, the new integrated optical radiation source can be used more efficiently both for indoor and outdoor installation in high-quality optical radiation systems, as well as in closed luminaires of limited volume in various critical lighting systems, or in special infrared generators (sources) or ultraviolet radiation.

A new source of optical radiation, compared with the prototype, as noted above, has a lower level of radio noise and radiation (not exceeding the standards currently established by the standards for such devices). The latter is very important when operating the device.

Claims (7)

1. An integrated source of optical radiation containing a single-phase bridge with four diodes, the AC terminal of the bridge is connected to the input terminal of the source through a series circuit of a resistor and a fuse, and the second AC terminal of the bridge is connected to the second input terminal of the source through a capacitive circuit shunted by the second resistor , the DC bus terminals of the bridge are shunted by a second series circuit from the third resistor and the LED circuit, the ratio of the forward voltage of the LED circuit to the maximum voltage value at the input terminals of the source is 0.3 ... 0.8. 2. The integrated optical radiation source according to claim 1, characterized in that the AC terminal of the bridge is connected to the second input terminal of the source through a varistor. 3. An integrated optical radiation source according to claim 1 or 2, characterized in that the AC terminal of the bridge is connected to the second input terminal of the source through a capacitor. 4. An integrated source of optical radiation according to claim 1 or 2, characterized in that the direct current terminals of the bridge are shunted by a second capacitor and a fourth resistor. 5. An integrated optical radiation source according to claim 1 or 2, characterized in that a choke shunted by a fifth resistor is included in the second serial circuit. 6. An integrated optical radiation source according to claim 1 or 2, characterized in that the capacitive circuit can consist of either one or several capacitors connected in series or in parallel, or in series and in parallel. 7. An integrated optical radiation source according to claim 1 or 2, characterized in that the LED circuit can consist of either one or several LEDs, or LED arrays, or LED arrays connected in series or in parallel, or in series and in parallel.

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